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This document is provided for information purposes only and does not constitute legal advice or endorsement by Aftcast.com of any named products or services. Future outcomes will be different than in the past. All questions regarding compliance with the laws and regulations discussed here should be directed to competent legal counsel. P a g e | 1
Retirement Income Accumulation: Non‐Gaussian Analysis of Accumulation Strategies and Products
A White Paper from Aftcast.com Copyright Notice: All rights reserved. No part of this publication may be reproduced, stored in a
retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the written permission of the publisher except in critical articles and reviews. For information, please contact Jim Otar, 96 Willowbrook Road, Thornhill, ON, Canada, L3T 5P5, or send an email to: jim@retirementoptimizer.com
Disclaimer: Throughout this paper, terms “successful”, “unsuccessful”, “failure”, “certainty” and any
similar words refer only to statistical outcomes of the market history since 1900. Future outcomes will likely be different. Final Edition, March 15, 2011
This document is provided for information purposes only and does not constitute legal advice or endorsement by Aftcast.com of any named products or services. Future outcomes will be different than in the past. All questions regarding compliance with the laws and regulations discussed here should be directed to competent legal counsel. P a g e | 2
Retirement Income Accumulation: Non‐Gaussian Analysis of Accumulation Strategies and Products
Executive Summary:
In this paper, we analyze the Capital Accumulation Efficiency (CAE) of various strategies, including, asset allocation strategies, variable annuities, fixed index annuities and other similar products using non‐Gaussian approach. CAE measures how effectively a method, a strategy or a product measures against an optimized investment portfolio for accumulation purposes.
First, we calculate the savings required to provide a fixed dollar accumulation target with 90% certainty for the investment portfolio with varying asset allocations and time horizons. We establish the optimum asset mix for each time horizon using our non‐Gaussian approach. This becomes our base case.
Then we compare the capital required for this base case to various test cases:
1. Portfolios with various values of alpha, fixed income yield premiums, and real return of inflation indexed bonds, rebalancing thresholds and rebalancing frequencies.
2. Portfolios with different asset allocation strategies, such as age based and target date.
3. Different Fixed Index Annuity products with the interest credit linked to equity index (FIA).
4. Different Variable Annuity products with guaranteed minimum withdrawal benefits (VAGMWB)
We define the CAE as the ratio of capital required in the base case to the capital required for the test case expressed in percentage. For example: The base case indicates that you need $320,000 as initial capital to generate $1 million after a 30‐year time horizon with 90% certainty. The test case using a certain FIA indicates that you need $240,000 to achieve the same objective. Then the capital efficiency of this particular test case is 133%.
If the capital efficiency is above 100% then the test case is the more efficient way of accumulating assets for retirement. If the capital efficiency is below 100% then an investment portfolio at the optimum asset mix is the more efficient way of accumulating assets for retirement.
This document is provided for information purposes only and does not constitute legal advice or endorsement by Aftcast.com of any named products or services. Future outcomes will be different than in the past. All questions regarding compliance with the laws and regulations discussed here should be directed to competent legal counsel. P a g e | 3
Throughout this paper, we avoid using any deterministic and Gaussian forecast methodology, such as assumed future growth rates, future inflation rates, or any type of Monte Carlo simulators. Instead we use the aftcasting methodology that uses the actual market history. Aftcasting reflects the actual sequence of events, the actual sequence of returns (stocks, interest rates and inflation), actual correlation between stocks, interest rates and inflation; and finally, the actual volatility as they occurred since 1900. Aftcasting methodology and calculation tools for writing this article was developed by the author of this paper.
We did not include any tax consequences in our analysis. We only looked at actual portfolio performances, excluding any tax advantages of some specific products, strategies or account types.
Designing a retirement accumulation strategy with a 90% certainty does not reflect of the author’s future expectations of market performance. Rather, it provides a better‐engineered, purpose‐driven design that allows the investor to achieve his dollar target within his specific time horizon. By definition, designing for a 90% certainty means that the investor will reach his dollar target before his planned time horizon in 90% of the time –based on market history. When that happens, he can then invest surplus assets as described in the addendum at the end of this paper. At that time, the purpose of investing switches from accumulating a target dollar amount to maximizing growth at optimum risk.
Summary of Findings:
The non‐Gaussian aftcast of all years since 1900 shows that:
1. The optimum asset mix between equities and bonds points to a much lower equity content in a non‐Gaussian approach when compared with the Gaussian approach (efficient frontier, MPT etc).
2. The performance of bonds is just a important as the performance of equities in an accumulation portfolio.
3. Target‐Date funds are much more likely to miss a target than a portfolio with a fixed, optimum asset mix.
4. Fixed index annuities that are of the annual‐point‐to‐point type, have a significantly better chance of achieving a specific future target dollar amount than a portfolio with a fixed, optimum asset mix.
5. If the purpose is to accumulate within the next 10 to 15 years for a lifelong retirement income, variable annuities with step‐up features generally have the highest capital accumulation efficiency.
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This document is provided for information purposes only and does not constitute legal advice or endorsement by Aftcast.com of any named products or services. Future outcomes will be different than in the past. All questions regarding compliance with the laws and regulations discussed here should be directed to competent legal counsel. P a g e | 5
When saving for retirement, one of the important questions is “what strategy or product can help accumulate a specific target amount of retirement assets with the highest efficiency and certainty?” It is important to know, for example, $500,000 invested today, can grow to $1 million over the next twenty years with some degree of certainty. For that, we turn to aftcasting.
Aftcast of an Investment Portfolio:
For withdrawal rates over 3.5%, the sequence of returns is the largest determinant of the success in a retirement portfolio. Yet its effect is missed by all man‐made simulators that are based on Gaussian models. That is because of their inherent flaw: They can simulate the volatility of returns rather well. However, they cannot model the patterns of sequence of returns. These patterns are as a result of specific correlations between various economic factors such as equities, bond yields, interest rates and inflation in typical market cycles.
Aftcasting reflects the sequence of returns exactly as it happened in history. Aftcasting, as opposed to forecasting, is a method developed by the author for analyzing investment outcomes. It includes the actual historical equity performance, inflation rate and interest rate, as well as the actual historical sequencing of these data sets.
Aftcasting displays the outcome of all historical asset values of all portfolios since 1900 on the same chart, as if a person starts his plan in each of the years between 1900 and 2000. It gives a bird’s‐eye view of all outcomes. It also provides the success and failure statistics with exact historical accuracy, as opposed to man‐made simulation models.
Let’s work thorough an example: Bob, 35, has just received $100,000 inheritance. He wants this money to grow over the next thirty years, in time for his retirement. He wants to know how much money he will have at that time.
His current asset mix is 60% equities and 40% fixed income2. The aftcast of this scenario is depicted in Figure 2. On this chart, we see the aftcast lines (thin gray lines) for each starting year since 1900. There are 40 years of data on each aftcast line for all starting years before 1972. After 1971, each aftcast line ends at the end of year 2010. Thus, there are 3706 data points that reflect the exact, actual market history that is exactly in‐line with realistic correlations and patterns of performance of equities, bond yields, interest rates and inflation.
2 Equity proxy: Dow Jones Industrial Average since 1900, using currently prevailing dividend rates of 2%, total annual portfolio cost is 2% of the portfolio value, including management fees and all trading costs; a net alpha of 0%. Fixed income net returns (after all expenses), are historic 6‐month CD rate plus 0.5%.
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This document is provided for information purposes only and does not constitute legal advice or endorsement by Aftcast.com of any named products or services. Future outcomes will be different than in the past. All questions regarding compliance with the laws and regulations discussed here should be directed to competent legal counsel. P a g e | 7
The Effect of Asset Allocation and Time Horizon:
We used a 60/40 asset mix and a 30‐year time horizon to generate the aftcast chart in Figure 2. Let’s see what happens if we use different asset mixes and different time horizons. We want to know how much initial capital we need to accumulate $1 million at the end of that time horizon. The following table shows the accumulation aftcast for various asset mixes and time horizons: Table 1: Initial capital required to accumulate $1 million over a fixed time horizon
Asset Mix Time Horizon
Equity/Fixed Income
Outcome 10 years 20 years 30 years 40 years
Initial Capital Required to Accumulate $1 million:
100 / 0 Unlucky $1,130,785 $811,877 $577,341 $455,221 Median $632,899 $357,898 $241,373 $130,763 Lucky $304,642 $146,705 $83,789 $72,484
80 / 20 Unlucky $934,996 $635,812 $413,363 $284,953 Median $603,107 $339,374 $209,754 $127,187 Lucky $343,971 $161,481 $85,781 $64,221
70 /30
Unlucky $857,114 $597,060 $367,147 $252,464
Median $598,940 $338,973 $208,719 $130,801
Lucky $359,505 $163,557 $89,301 $61,711
60 /40 Unlucky $839,198 $529,279 $332,041 $226,836 Median $593,134 $356,152 $204,761 $134,216 Lucky $365,221 $164,428 $90,175 $58,699
50 /50
Unlucky $788,195 $501,582 $318,550 $202,869
Median $587,763 $342,248 $212,982 $144,722
Lucky $381,303 $177,255 $91,801 $56,870
40 / 60 Unlucky $776,093 $498,859 $319,146 $201,406 Median $589,574 $348,833 $222,976 $159,853 Lucky $402,443 $190,111 $94,571 $56,049
30 /70
Unlucky $781,157 $514,591 $342,380 $211,926
Median $596,959 $351,885 $232,896 $167,379
Lucky $416,678 $185,423 $95,331 $55,754
20 / 80 Unlucky $785,728 $552,768 $368,255 $231,768 Median $596,591 $350,210 $227,016 $170,282 Lucky $435,486 $179,737 $97,823 $55,275
Unlucky $853,901 $678,189 $497,117 $319,818 0 / 100 Median $598,130 $358,171 $243,223 $192,972
Lucky $410,559 $182,303 $93,929 $58,461
This document is provided for information purposes only and does not constitute legal advice or endorsement by Aftcast.com of any named products or services. Future outcomes will be different than in the past. All questions regarding compliance with the laws and regulations discussed here should be directed to competent legal counsel. P a g e | 8
In many cases, the client has no initial capital to start with, but he plans to save periodically for his retirement. Table 2 indicates the dollar amount that must be saved in the first year of the plan. After the first year, the dollar amount of annual savings is indexed to inflation over the entire time horizon. Table 2: Annual savings required to accumulate $1million over a fixed time horizon, starting with no
initial savings:
Asset Mix Time Horizon
Equity/Fixed Income
Outcome 10 years 20 years 30 years 40 years
Annual Savings Required to Accumulate $1 million:
(the first year amount is indicated, in subsequent years, it is indexed to inflation)
100 / 0 Unlucky $95,834 $40,077 $20,212 $10,410 Median $72,827 $24,342 $10,083 $4,916 Lucky $49,528 $14,293 $5,080 $2,561
80 / 20 Unlucky $91,114 $35,029 $16,971 $8,918 Median $72,533 $24,291 $10,382 $5,241 Lucky $51,963 $15,420 $5,607 $2,647
70 /30
Unlucky $87,250 $33,084 $16,190 $8,593
Median $72,181 $24,215 $10,514 $5,448
Lucky $54,224 $15,395 $5,966 $2,742
60 /40 Unlucky $84,549 $31,451 $15,583 $8,290 Median $72,389 $23,689 $10,827 $5,604 Lucky $54,925 $15,612 $6,173 $2,857
50 /50
Unlucky $83,723 $31,569 $15,270 $8,121
Median $72,496 $24,351 $11,033 $5,913
Lucky $56,093 $15,845 $6,442 $2,966
40 / 60 Unlucky $82,317 $31,151 $15,540 $8,196 Median $72,418 $24,449 $11,397 $6,207 Lucky $57,581 $16,078 $6,743 $3,098
30 /70
Unlucky $82,101 $31,349 $15,692 $8,245
Median $72,009 $24,948 $11,708 $6,218
Lucky $58,661 $16,380 $6,629 $3,105
20 / 80 Unlucky $81,706 $32,453 $15,814 $8,674 Median $72,704 $24,864 $11,821 $6,346 Lucky $60,723 $16,935 $6,487 $3,092
Unlucky $85,354 $34,752 $18,562 $10,503 0 / 100 Median $72,820 $25,155 $11,879 $6,403
Lucky $61,161 $16,097 $6,488 $3,083
This document is provided for information purposes only and does not constitute legal advice or endorsement by Aftcast.com of any named products or services. Future outcomes will be different than in the past. All questions regarding compliance with the laws and regulations discussed here should be directed to competent legal counsel. P a g e | 9
By using the information on these two tables (Table 1 and Table 2), one can calculate any unknown amount.
Example 1: Jane has $230,000 in her investment account, 60% equity and 40% fixed income. She saves $15,000 each year and this dollar amount is indexed to inflation. How much would she accumulate in her account in 20 years with 90% certainty (unlucky outcome)? Step 1: Initial savings: How much does her $230,000 grow? We read from Table 1 that at 60/40 asset mix, you need $529,279 for a $1 million end value after 20 years if unlucky. Therefore, her existing $230,000 grows to $434,553, calculated as $230,000 divided by $529,279 multiplied with $1million. Step 2: Annual Savings: How much does her annual savings of $15,000 grow? We read from Table 2 that you need to save $31,451 in the first year (indexed to inflation in subsequent years) to accumulate $1 million at the end of 20 years for the unlucky outcome for the 60/40 asset mix. Therefore, her annual savings grows to $476,932, calculated as $15,000 divided by $31,451 multiplied by $1 million. Add the results from step 1 and step 2 to calculate the total expected assets. Thus, Jane can expect to have at least $911,485 with 90% historical certainty in 20 years.
Example 2: Keith has $350,000 in his investment account, 70/30 asset allocation. How much does he need to save annually for the next 10 years to accumulate $850,000 with 90% certainty (unlucky)? Step 1: Initial Savings: How much does his $350,000 grow? We read from Table 1 that at 70/30 asset mix, you need $857,114 for a $1 million end value after 10 years for the unlucky outcome. Therefore, his existing $350,000 grows to $408,347, calculated as $350,000 divided by $857,114 multiplied with $1million. Step 2: Annual Savings: He needs to save sufficient money each year to make up the shortfall of $441,653, calculated as $850,000 minus $408,347. We read from Table 2 that you need to save $87,250 in the first year (indexed to inflation in subsequent years) to accumulate $1 million at the end of 10 years for the unlucky outcome for the 70/30 asset mix. Therefore, Keith needs to save annually $38,534 in the first year (indexed to inflation each year after that), calculated as $441,653 divided by $1 million multiplied by $87,250.
This document is provided for information purposes only and does not constitute legal advice or endorsement by Aftcast.com of any named products or services. Future outcomes will be different than in the past. All questions regarding compliance with the laws and regulations discussed here should be directed to competent legal counsel. P a g e | 10
The Most Likely Outcome:
The next question we need to ask is this: Which outcome should we use? Do we use the lucky outcome, the median outcome, or do we use the unlucky outcome?
We need to use the outcome that is most likely to occur for the investor. For that, let’s look at the psychology of loss.
The Psychology of Loss:
From the beginning of 1900 until the end of 2009, the compound annual return (CAR) of the DJIA (index only) was 4.7%. However, if you miss the best 39 months out of the entire 1317 months that markets were open for business, your CAR drops down to 0%. This is about 3% of the entire time period. Essentially, what made money for the investor is the extreme good markets that happened only 3% of the time. Conversely, what creates catastrophic losses happened only 3% of the time. These are the “black swan” events that create cataclysmic changes to outcomes where models based on random distributions fail to recognize4.
The investor psychology can be compared to how we feel in extreme weather conditions. When it is really cold, the weatherman talks about the wind‐chill effect. He might say something like “The temperature is 20 degrees Fahrenheit, but the wind‐chill factor makes you feel like minus 10!” On the other hand, when it is really hot, the weatherman might say something like “The temperature is 90 degrees Fahrenheit, but with the heat index5 it feels like 120!”
If you look at the extreme bullish trends that occurred during 3% of the time, the annualized growth rate was 381%. During such a time period, after observing this phenomenal increase for a short while, like with the heat index, the investor “feels” like he is missing the boat. Just before that trend turns around, he abandons his long‐term asset allocation policies and becomes aggressive with his investments. This action creates conditions for larger future losses.
At the opposite end of the spectrum, during the most extreme bearish trends that occurred 3% of the time, the annualized rate of loss was 86%. During such a time period, after observing this phenomenal loss, like the wind‐chill effect, the investor “feels” like he is losing everything. Just before that trend turns around, he abandons his asset allocation policy and sells everything. This action creates conditions for smaller future gains. Figure 3 depicts this in a Gaussian framework.
4 The conventional investment wisdom, such as the efficient frontier, MPT, portfolio optimizations, correlation factors between asset classes, and many other concepts are entirely based on the randomness of the market events and are ineffective during these extreme market trends.
5 known as “humidex” in Canada
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This document is provided for information purposes only and does not constitute legal advice or endorsement by Aftcast.com of any named products or services. Future outcomes will be different than in the past. All questions regarding compliance with the laws and regulations discussed here should be directed to competent legal counsel. P a g e | 12
While the financial industry might talk about an “average return” for the market index, the average return for an
average investor is the bottom decile of that market index.
Investor behavior and basic engineering principles compel us to use the bottom decile outcome (the unlucky outcome) as the basis of our calculations. This ensures that a client has a
90% of certainty8 of achieving his goals.
Those readers, who have been accustomed to the Gaussian mindset, might think that it is too stringent to use the unlucky outcome for 90% certainty. After all, pension funds assume an average growth rate to project 5 years, 10 years, 20 years, even 40 years into the future9. My response is; this is exactly why most are failing or on the path towards failure.
In engineering, if you are designing anything, then you have no choice but to design for the adverse conditions and not for the average. Only then, can your design be considered robust and reliable. On the other hand, most forecasts ‐be it retirement plans for individuals or projections for pension funds‐ are unable to recognize this “Grand Canyon” between this “average” outcomes and “design” outcomes.
Optimum Asset Mix:
Next, we need to figure out the optimum asset mix based on aftcasting.
Since the most likely outcome for the investor is the unlucky outcome, and the basic engineering principles dictate that we design for that, we need to figure out the optimum asset allocation based on the unlucky outcome. We plot the initial capital required for the unlucky outcome for various asset mixes and time horizons. On the graph, we locate the lowest point. This is the lowest initial capital required to yield the same unlucky future value10. We then read the asset mix that corresponds to this lowest point.
8 The term “certainty” is used here in a statistical context. It refers to market history since 1900. Future outcomes will be different.
9 Canada Pension Plan projects 75 years into the future 10 or expressed differently: the maximum future value for the same initial required capital
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Some academics define the “retirement risk zone” as the 5‐year time periods immediately prior to and following the retirement age. We disagree. We believe that the retirement risk zone starts as soon as the first dollar is invested and it ends when both you and your spouse die. The source and the type of risk changes and shifts over time, but it is always there.
In the current portfolio management practice, efficient frontier analysis is the basis of asset allocation decisions. It is based on standard deviation of returns which is inherently based on Gaussian model. This generally discounts the extremes and therefore their equity allocation is much higher than what we discovered with aftcasting. In this paper, we use DJIA as our equity proxy. However, we include below (Table 4) the optimum asset mix for S&P500 as equity proxy. And for our Canadian readers, Table 5 displays the same for the SP/TSX index. Table 4: Optimum asset mix for 90% certainty (Equity proxy: S&P500):
Optimum Asset Mix Time Horizon Initial savings only,
no annual savings Annual savings only, no initial savings
10 years 30 / 70 30 / 7020 years 40 / 60 30 / 7030 years 30 / 70 40 / 6040 years 40 / 60 30 / 70
Table 5: Optimum asset mix for 90% certainty (Equity proxy: SP/TSX):
Optimum Asset Mix Time Horizon Initial savings only,
no annual savings Annual savings only, no initial savings
10 years 40 / 60 20 / 8020 years 40 / 60 70 / 3030 years 60 / 40 80 / 2040 years 70 / 30 100 / 0
The optimum asset mix figures we observe using aftcasting are very much in‐line with the equity allocation that Benjamin Graham suggested in his book12 “The Intelligent Investor”, which is described by Warren E. Buffet as “by far the best book on investing ever written”.
12 Graham, Benjamin, The Intelligent Investor, ISBN: 0‐06‐015547‐7, Chapter 4 “The General Portfolio Policy”
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Strategic Asset Allocation ‐ Establishing the Base Case:
Strategic asset allocation means that we establish some “suitable” asset mix for the client and maintain that asset mix over the time horizon. This asset mix is maintained by rebalancing the portfolio periodically, usually annually, sometimes more often. Our base case uses strategic asset allocation for the entire accumulation time horizon.
We will leave out the calculations for the case “starting with nothing and adding only annual savings to a portfolio” from our analysis13. Then we end up with a single question to answer: “If I have a fixed amount of dollars to start with, which strategy or product will give me the highest dollar amount at the end of my time horizon with a 90% certainty?”
To keep things simple, we use a 40/60 asset mix as our optimum for all time horizons.
Having determined the optimum asset mix, we now have our base case. We use this base case as the benchmark to measure the capital accumulation efficiency of all other strategies and products.
Table 6: The Base Case for 90% certainty:
Time Horizon Initial Capital Required to Accumulate $1 million
Capital Accumulation Efficiency
10 years $776,093 100%
20 years $498,859 100%
30 years $319,146 100%
40 years $201,406 100%
Now, we can compare different variables, strategies and products to this base case.
13 This paper is not about the optimum asset mix over a life cycle. For that, refer to author’s book “Unveiling the Retirement Myth, Chapter 19
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The Effect of Alpha:
Alpha quantifies excess return of equities over and above its benchmark index.
In this paper, we use alpha as a “catch‐all” number for the overall equity perfomance relative to the index for any factor:
Dividends increase alpha.
Management fees, portfolio costs, bid/ask spreads, trading costs, taxes generally decrease your alpha.
Actively managed funds that beat the index over the long term consistently14, can increase alpha.
Using technical analysis tools succesfully can increase alpha. On the other hand, following one’s emotions for market timing can decrease alpha.
For example, we run an aftcast for an alpha of +2% for an asset mix of 40/60. This includes all effects as described above for the equity portion of the portfolio. We find that you would need $426,153 as your initial capital for a 20 year time horizon to accumulate $1 million with 90% certainty.
Remembering that for our base case (see Table 6), we need $498,859 as initial capital, we calculate the capital accumulation efficiency of 2% alpha over 20 years as following:
CAE = ($498,859 / $426,153) X 100% = 117.1%
Table 7 summarizes the capital accumulation efficiency for various alpha values and time horizons at the optimum asset mix for 90% certainty.
14 The author’s experience has been that about 2% to 3% of portfolio managers beat the index consistently over the long term outside the realm of luck. This is about the same proportion of “extreme” versus “normal” markets.
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Table 7: The capital accumulation efficiency of various alpha values for 90% certainty:
Time Horizon
Alpha 10 years 20 years 30 years 40 years
Capital Accumulation Efficiency:
‐4% 85.2% 72.6% 62.1% 53.5% ‐3% 88.7% 78.9% 70.2% 62.7% ‐2% 92.3% 85.3% 78.6% 73.1% ‐1% 96.1% 92.4% 88.7% 85.8% 0% 100.0% 100.0% 100.0% 100.0% +1% 104.1% 107.9% 112.4% 116.8% +2% 108.3% 117.1% 125.7% 136.3% +3% 113.2% 126.9% 141.1% 159.2% +4% 117.6% 136.8% 158.0% 185.1%
A reality check: Let’s calculate the effective compound annual returns for all alphas and time horizons. Table 8 desplays the results.
Table 8: The effective compound annual growth rates of portfolios with various alpha values for 90%
certainty of outcome at the optimum asset mix:
Time Horizon
Alpha 10 years 20 years 30 years 40 years
Effective Compound Annual Growth Rate:
‐4% 0.9% 1.9% 2.2% 2.5% ‐3% 1.3% 2.3% 2.7% 2.9% ‐2% 1.8% 2.7% 3.0% 3.3% ‐1% 2.2% 3.1% 3.5% 3.7% 0% 2.6% 3.5% 3.9% 4.1% +1% 3.0% 3.9% 4.3% 4.5% +2% 3.4% 4.4% 4.7% 4.9% +3% 3.8% 4.8% 5.1% 5.3% +4% 4.2% 5.2% 5.5% 5.7%
At the time of writing, the interest rates were near their historically‐low levels. A 10‐year government bond currently yields about 3.5%. If we allow ourselves to step into a fantasyland where these rates will remain “forever”, then we can paint the effective growth rates on Table 6 with a different brush:
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Time Horizon
Alpha 10 years 20 years 30 years 40 years
Effective Compound Annual Growth Rate:
‐4% 0.9% 1.9% 2.2% 2.5% ‐3% 1.3% 2.3% 2.7% 2.9% ‐2% 1.8% 2.7% 3.0% 3.3%
‐1% 2.2% 3.1% 3.5% 3.7%
0% 2.6% 3.5% 3.9% 4.1% +1% 3.0% 3.9% 4.3% 4.5% +2% 3.4% 4.4% 4.7% 4.9%
+3% 3.8% 4.8% 5.1% 5.3% +4% 4.2% 5.2% 5.5% 5.7%
We painted all areas where the effective compound annual return of the portfolio is below the current 10‐year bond yield in yellow. Here is our conclusion:
If your time horizon is 10 years or less and you want a 90% certainty of achieving your accumulation target and you have no guarantee of beating the index by at least 3%, then you are better off buying guaranteed deposits/investments, such as bonds, FIA or VA‐GMWB.
If your time horizon is 20 years or longer and the equity portion of your portfolio is not expected to outperform the index on a consistent basis for the entire time horizon, then you are better off holding broad‐based, low‐cost ETFs in the equity portion of your portfolio.
Disregard any performance numbers, including any greek letters, for any actively managed portfolios or funds (regardless of holding individual stocks or trading ETFs) with a history under 20 years. They do not indicate anything except presence or absence of luck.
If your time horizon is 30 years or longer and you expect to beat the index, then you can try to seek active managers with a good track record, hoping and monitoring that they continue their performance.
“Normal Yield” Scenario: If bond yields eventually increase towards their historical averages, then the painted area on this table might move even lower. In that case, the entire 10‐year time horizon, as well as most of the 20‐year time horizon, can become a too short of a time horizon to invest for the 90% certainty of outcome that you require.
“Extreme Yield” Scenario: If bond yields eventually increase far above their historical averages –perhaps indicating increased default risk of the bond issuer‐, then there is not much you can do, most portfolios will lose.
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The Effect of Fixed Income Yields:
In our optimum asset mix, we assumed in the fixed income portion of our portfolio a yield that is at a 0.5% premium over and above the historical, annualized interest of a 6‐month CD. This number matches approximately the current bond yields.
We varied this premium to determine the capital efficiency for different bond yield premiums to observe their sensitivity. Table 9 summarizes the results.
Table 9: The capital accumulation efficiency for various average yields of the fixed income portion of the
portfolio for 90% certainty:
Bond Yield Premium over and above the historical, annualized 6‐month CD
interest
Time Horizon
10 years 20 years 30 years 40 years
Capital Accumulation Efficiency: 0.0% 97.1% 94.1% 91.5% 88.6% 0.5% 100.0% 100.0% 100.0% 100.0% 1.0% 102.9% 105.9% 108.9% 112.1% 1.5% 106.0% 112.2% 118.5% 126.1% 2.0% 109.0% 118.8% 129.0% 140.4% 2.5% 112.2% 125.9% 140.3% 157.8%
These figures indicate that for accumulation portfolios, the performance of the bonds is just a important as the performance of equities, and especially so over the longer term. Keep in mind, extreme low bond yield premiums that the North American markets is experiencing during the last few years, can go on for long periods of time, as is the case in the Japanese markets for the last couple of decades.
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The Effect of Inflation Indexed Bonds:
So far, we used conventional bonds in the fixed income portion of our portfolios. Now, we analyze inflation indexed bonds as our fixed income.
Unlike conventional bonds, the coupon payments of inflation indexed bonds are indexed to inflation in some form. That protects the bondholder against inflation.
The inflation indexed bonds do not have too long of a history. They have become popular during the last 20 years. Initial buyers were mostly pension funds and insurance companies which needed to mitigate their inflation‐linked liabilities. Because there is insufficient history, we aftcast various levels of real returns of inflation indexed bonds by using the historical CPI plus a real yield over inflation. However, before rushing to present you with tables, we would like to share our findings about the variability of our assumptions first. It is important to understand why using one “average” real return will not be sufficient for a robust analysis.
Let’s look at secular trends to see the interrelation between inflation and market growth. Table 10 indicates the average annual inflation and DJIA growth over each secular trend.
Table 10: Inflation in secular trends (1900 – 1999)
Trend
Average Annual DJIA
Growth
Average Annual Inflation
Length,
years
All Trends 1900 – 1999 7.7% 3.3%
Secular Sideways15:
1900 – 1920
1937 – 1948
1966 – 1981
2.4%
4.2%
1.4%
0.8%
5.6%
4.8%
4.8%
7.1%
21
12
16
Secular Bull:
1921 – 1928
1949 – 1965
1982 – 1999
15.0%
20.6%
11.5%
15.9%
1.8%
–1.5%
1.7%
3.3%
8
17
18
Secular Bear:
1929 – 1932
–31.7%
–31.7%
–6.4%
–6.4%
4
Other:
Cyclical Bull 1933 – 1936
33.5%
1.7%
4
15 weighted average; weighted by the length of each secular trend
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We observe that:
During the last century, markets spent about 46% of their time in secular bullish trends. Within these trends, the average annual inflation was 1.8% and the annual average growth of equities was 15% (index only), which handily beats the inflation.
During the last century, markets spent about half of their time in secular sideways trends. Within these trends, the average annual inflation was 5.6%, which is much higher than in secular bullish trends. This higher inflation rate was not steady over the entire duration of the secular sideways trend; it generally stayed low during the first two‐thirds of the sideways trend and then increased steeply. The annual average growth in equities was only 2.4% (index only), far short of inflation. In secular sideways trends, equities did not provide an inflation hedge.
When holding inflation indexed bonds, you can expect a higher real yield during secular bullish trends. That is because the alternative, equities, provide a much higher return, and during such times and, as time goes on, they are perceived to be less riskier than they actually are. On the other hand, during sideways trends, equities are perceived to be more risky. Thus, inflation indexed bonds can be more attractive and command a relative higher price (lower real interest).
Because of this potential compression/expansion cycle of real returns in different types of secular trends, one should not just pick and choose an “average” real return but a range of averages to cover all situations.This is also true not only for individuals, but also for forecasts concocted for pension plans using the historical “averages” to make forecasts for the next 5 to 75 years. Their picture becomes much different (dimmer) as soon as we apply a specific target with a 90% certainty.
Now, we can continue with our efficiency figures, summarized on Table 11.
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Table 11: The capital accumulation efficiency of holding inflation indexed bonds (IIB) as fixed income for 90% certainty:
Asset Mix
Equity/IIB
Real Yield over and above the historical CPI
Time Horizon
10 years 20 years 30 years 40 years
Capital Accumulation Efficiency: 80 / 20 0% 79.1% 70.5% 66.1% 57.7%
1% 80.7% 73.0% 68.4% 61.4% 2% 82.3% 75.9% 72.3% 65.7% 3%
83.9% 79.3% 77.6% 72.4%
60 / 40 0% 82.7% 71.5% 68.9% 63.6% 1% 86.1% 77.3% 78.0% 74.9% 2% 89.6% 84.1% 88.2% 88.2% 3%
93.2% 90.9% 100.3% 104.8%
40 / 60 0% 84.2% 69.7% 69.3% 63.6% 1% 89.8% 78.4% 82.6% 80.9% 2% 95.8% 88.6% 99.0% 103.1% 3%
102.1% 99.5% 119.3% 130.3%
20 / 80 0% 84.2% 66.7% 63.9% 54.0% 1% 90.2% 77.8% 79.7% 73.2% 2% 97.4% 90.1% 100.6% 99.2% 3% 105.1% 105.0% 126.6% 134.3%
For reasons described earlier about the compression/expansion of real yields spanning over different secular trends, the apperance of higher CAE in some cases (in Table 11) is not realistic for time horizons over 10 years.
We can conclude that, for accumulation portfolios, unless there is an immediate need for inflation‐adjusted periodic withdrawals, adding inflation indexed bonds can create a lower certainty of achieving a specific target than the base case.
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Rebalancing Strategies:
There are many rebalancing strategies. If we ignore strategies bordering on market timing, we end up with two: optimizing the level of the threshold and the frequency.
The rebalancing threshold determines how much of a deviation from the optimum asset mix do you need to trigger rebalancing. We look at three different thresholds: 0%, 3% and 6% deviation from the equity percentage in the optimum asset mix.
The rebalancing frequency determines how often we rebalance. We look at three different rebalancing frequencies:
1. Annual rebalancing 2. Rebalance every four years at the end of the Presidential election year to
synchronize with the President election cycle of the markets 3. Starting with the optimum asset mix and never rebalance again until the end of
the accumulation time horizon
Table 12 summarizes the capital accumulation efficiency for different time horizons with 90% certainty of achieving the target amount.
Table 12: The capital accumulation efficiency for various rebalancing strategies with 90% certainty:
Rebalancing Strategy Frequency / Threshold
Time Horizon
10 years 20 years 30 years 40 years
Capital Accumulation Efficiency:
Annual / 0% 99.5% 99.5% 98.7% 98.6% Annual / 3% 100.0% 100.0% 100.0% 100.0% Annual / 6% 99.9% 98.9% 100.3% 100.3%
Pres. Election Year / 0% 103.4% 110.6% 118.7% 111.8% Pres. Election Year / 3% 103.4% 111.7% 119.3% 113.2% Pres. Election Year / 6% 103.4% 112.9% 120.0% 112.6%
Never Rebalance 94.9% 84.3% 78.4% 72.9%
During the accumulation stage, rebalancing once every four years at the end of the Presidential election year appears to give the best results16. This is in contrast with the “the more, the better” approach of the current wisdom about rebalancing.
16 Otar, Jim C., Unveiling the Retirement Myth, ISBN: 978‐0‐9689634‐25, Chapter 6 “Rebalancing”, page 72
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Age‐Based Asset Allocation:
Some investors like to reduce their equity exposure as they get older. Many followers of this idea use this simple formula: The equity percentage in their portfolio equals to 100 less their age. Here are equity allocations for selected ages:
Age Equity Allocation
30 70% 40 60%60 40%80 20%
Since the time horizon is loosely a function of investors current age, we need to calculate the capital accumulation efficiency for various retirement ages. Table 13 summarizes the capital accumulation efficiency using age‐based asset allocation for different time horizons with a 90% certainty of achieving the target amount.
Table 13: The capital accumulation efficiency of age based asset allocation with 90% certainty:
Accumulation ends at age:
Time Horizon
10 years 20 years 30 years 40 years
Capital Accumulation Efficiency:
60 100.0% 100.0% 89.6% 82.0% 65 101.0% 100.2% 91.4% 82.5% 70 99.9% 98.9% 92.7% 84.3% 75 99.5% 96.7% 92.9% 85.6%
If you are investing for the long term, then using the age‐based asset allocation reduces the probability of reaching your target objective compared to our base case for the same starting capital. And the longer the time horizon, the lower is that probability.
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Accelerated Age‐Based Asset Allocation:
This is a variation of the age‐based asset allocation. The formula for calculating the equity exposure is:
Equity Percentage = 100
Here are equity allocations for selected ages:
Age Equity Allocation
30 91% 40 84%60 64%80 36%
Table 14 summarizes the capital accumulation efficiency using accelerated age‐based asset allocation for different time horizons with 90% certainty of achieving the target amount.
Table 14: The capital accumulation efficiency of accelerated age based asset allocation with 90%
certainty:
Accumulation ends at age:
Time Horizon
10 years 20 years 30 years 40 years
Capital Accumulation Efficiency:
60 89.4% 80.1% 71.1% 59.5% 65 91.8% 84.9% 76.3% 61.9% 70 94.4% 89.8% 79.6% 66.9% 75 97.8% 97.0% 83.4% 72.3%
If you are investing for the long term, then using the accelerated age‐based asset allocation reduces the probability of reaching your target objective compared to the base case for the same starting capital. The longer the time horizon, the lower is the probability of reaching that target; much more so than the regular (non‐accelerated) age based asset allocation.
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Target‐Date Funds:
Target date asset allocation is a glorifed version of the age based asset allocation. The investor selects a certain target date fund such as “XYZ‐2040 Target Date Fund”. This fund starts with an aggressive equity holding, but as time gets closer to the target date (usually in 5 or 10‐year bands), the equity allocation is reduced. This is commonly called a “glidepath”.
We have seen earlier that both types of age‐based asset allocation strategies reduce the equity exposure as you get older. And both have a larger probability of not meeting your target accumulation when compared to the base case. Since target‐date asset allocation strategies follow a similar pattern to age‐based strategy, why would you expect a better outcome?
There are many different target date funds in the marketplace with various levels/slopes of glidepaths. We categorized them into three different levels: Extremely aggressive, Very aggresive, and Aggressive.
We included the adjective “aggressive” in all our category descriptions. This is because we believe that the currently‐available glidepaths generally represent a casino‐inspired betting and not target‐driven accumulation strategies. Table 15 summarizes the glidepaths we used in our analysis.
Table 15: Typical glidepaths in this analysis
Category Target Time Horizon Equity Allocation
Extremely Aggressive 30 years and longer 20 years 10 years
100% 85% 70%
Very Aggressive
30 years and longer20 years 10 years
90% 75% 60%
Aggressive 30 years and longer20 years 10 years
80% 65% 40%
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Table 16 summarizes the capital accumulation efficiency of various target‐date asset allocation strategies for different time horizons with 90% certainty of achieving the target.
Table 16: The capital accumulation efficiency of various target date asset allocations with 90% certainty:
Glidepath Category Time Horizon
10 years 20 years 30 years 40 years
Capital Accumulation Efficiency:
Extremely Aggressive 90.0% 75.0% 64.4% 51.3% Very Aggressive 92.8% 84.1% 71.6% 60.7%
Aggressive 99.5% 88.4% 81.1% 68.2%
Target‐date funds with similar glidepaths have a significantly greater probability of not meeting an accumulation target when compared to our base case with a fixed (non‐gliding) optimum asset mix. This is true for all time horizons. And, what is worse is, the longer the time horizon, the lower is the probability of reaching that target.
We did not account for the generally higher portfolio costs of the target date funds in this calculation. Therefore, the numbers should be actually a little worse than displayed on Table 16 for many popular target date funds.
Most target date funds ‐in their current design‐ will likely be a waste of your precious capital, time and hope. Unfortunately, it will likely take a long time before many investors realize that.
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Tactical Asset Allocation:
Here, the tactical asset allocation refers to the concept of “reversion to mean”. If the equity index growth rate in the most recent calendar year exceeds its average growth rate, then we expect a reversion to that average. That means we reduce our equity holdings to a more defensive asset mix. Conversely, if the equity index growth rate in the most recent calendar year lags its average growth rate, then we increase our equity holdings to a more aggressive asset mix, again, expecting a reversion to mean.
We found17 that a 6‐year look‐back is the optimum length for the definition of “mean” or average. It is long enough to cover a typical market cycle, but short enough not to miss the longer secular trend.
Table 17 summarizes the capital accumulation efficiency using tactical asset allocation strategy with various aggressive/defensive combinations for different time horizons with 90% certainty of achieving the target amount.
Table 17: The capital accumulation efficiency using various tactical asset allocations with 90% certainty:
Equity Allocation Aggressive / Defensive
Time Horizon
10 years 20 years 30 years 40 years
Capital Accumulation Efficiency:
100 / 0 84.7% 82.2% 99.0% 163.1% 100 / 20 91.5% 95.4% 102.7% 159.7% 80 / 0 88.1% 88.3% 99.8% 154.9% 80 / 20 97.0% 96.2% 104.7% 152.3% 60 / 0 92.9% 94.3% 97.7% 135.9% 60 / 20 96.1% 99.4% 103.2% 133.6%
This particular tactical asset allocation strategy generally worked better than the base case for time horizons 30 years or longer.
17 Otar, Jim C., Unveiling the Retirement Myth, ISBN: 978‐0‐9689634‐25, Chapter 24 “Tactical Asset Allocation”
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Fixed Index Annuities (FIA):
Fixed index annuities18 guarantee a fixed, minimum interest rate for the term of the contract, usually 10 years. In addition, this interest rate can be higher based on an index’s gain (such as the S&P 500). There are several dimensions of how they work and how the interest is credited. With all FIAs, the principal is protected from market risk.
Interest Credit: Two of the most popular methods of earning additional interest are:
1. A participation rate of the underlying index (typically between 50% and 100% of the index growth)
2. A yield spread of underlying index (for example: index growth less 3%)
We used both methods in our analysis.
Interest Crediting Method: There are numerous ways of crediting the interest. We included two of the most popular methods in our analysis:
1. Term End Point: The index movements are measured for the entire term of the FIA and added at the end of the term.
2. Annual Point‐to‐Point: The index movements are measured and interest is credited and compounded annually.
Caps: A cap is a ceiling on the interest that can be credited. It can be of the type that limits the index cap (the ceiling for the index movement) or interest cap (the ceiling for the interest credit). We used several different cap values.
Minimum Interest: In our calculations, we used 3% minimum annual interest rate on 90% of the premium received.
Underlying Index: We used DJIA as the underlying index.
Term: We used 10‐year term for all FIAs. That means for a 30‐year time horizon, the FIA was purchased once and then renewed twice for the same product with identical properties.
Similar Products: Index‐Linked CD (a.k.a. Index‐Linked GIC in Canada) is offered by some banks. We included 5‐year‐term index‐linked CDs in our analysis, renewed for the specified time horizon.
18 previously called “equity‐indexed annuities”
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Table 18: The capital accumulation efficiency for various Fixed Index Annuities with 90% certainty:
Description Time Horizon
10 years 20 years 30 years 40 years
Annual Point‐to‐Point Capital Accumulation Efficiency:
50% Participation, no cap 116.5% 127.1% 141.6% 151.7% 60% Participation, no cap 125.7% 151.6% 187.4% 218.8% 70% participation, no cap 135.4% 180.2% 246.9% 316.9% 80% participation, no cap 145.7% 213.6% 323.9% 455.8% 80% participation, 8% interest cap 105.6% 106.1% 96.1% 94.4% 80% participation, 10% interest cap 112.5% 123.0% 120.0% 128.7% 80% participation, 12% interest cap 118.4% 138.8% 146.5% 167.4% 80% participation, 8% index cap 104.3% 92.8% 83.9% 75.7% 80% participation, 10% index cap 105.6% 106.1% 96.1% 94.4% 80% participation, 12% index cap 111.3% 119.8% 114.8% 121.3% 100% participation, 8% interest cap 107.3% 107.7% 98.2% 97.7% 100% participation, 10% interest cap 113.6% 127.0% 124.7% 136.0% 100% participation, 12% interest cap 121.3% 147.4% 155.5% 185.6% 100% participation, 8% index cap 107.3% 107.7% 98.2% 97.7% 100% participation, 10% index cap 113.6% 127.0% 124.7% 136.0% 100% participation, 12% index cap 121.3% 147.4% 155.5% 185.6%
1% yield spread, 8% interest cap 105.6% 106.3% 95.8% 94.4% 1% yield spread, 10% interest cap 112.7% 124.2% 120.9% 130.7% 1% yield spread, 12% interest cap 119.0% 140.9% 149.8% 175.6% 1% yield spread, 8% index cap 104.3% 97.7% 87.1% 82.1% 1% yield spread, 10% index cap 109.6% 115.5% 107.9% 111.3% 1% yield spread, 12% index cap 115.8% 132.3% 134.4% 152.4% 1% yield spread, no cap 159.3% 265.2% 461.9% 737.1% 2% yield spread, 8% interest cap 104.7% 103.3% 94.8% 92.6% 2% yield spread, 10% interest cap 110.6% 118.4% 117.6% 125.8% 2% yield spread, 12% interest cap 116.0% 134.4% 144.3% 165.8% 2% yield spread, 8% index cap 104.3% 90.1% 81.8% 70.8% 2% yield spread, 10% index cap 104.7% 103.3% 94.8% 92.6% 2% yield spread, 12% index cap 110.6% 118.4% 117.6% 125.8% 2% yield spread, no cap 151.0% 236.3% 387.3% 585.9% 4% yield spread, 8% interest cap 104.3% 98.4% 92.7% 87.9% 4% yield spread, 10% interest cap 106.6% 110.6% 110.4% 113.0% 4% yield spread, 12% interest cap 111.7% 124.1% 133.6% 144.1% 4% yield spread, 8% index cap 104.3% 90.1% 77.5% 65.7% 4% yield spread, 10% index cap 104.3% 90.1% 80.5% 69.4% 4% yield spread, 12% index cap 104.3% 98.4% 92.7% 87.9% 4% yield spread, no cap 133.6% 190.4% 276.1% 381.4%
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Description Time Horizon
10 years 20 years 30 years 40 years
Term End‐Point Capital Accumulation Efficiency:
Participation between 50% and 100%, no cap
104.3% 90.1% 97.3% 113.7%
Participation between 50% and 100%, 100% cap
104.3% 90.1% 97.3% 97.8%
Participation between 50% and 100%, 200% cap
104.3% 90.1% 97.3% 113.7%
Yield Spread between 1% and 4%, no cap
104.3% 90.1% 97.3% 113.7%
Yield Spread between 1% and 4%, 100% cap
104.3% 90.1% 97.3% 97.8%
Yield Spread between 1% and 4%, 200% cap
104.3% 90.1% 97.3% 113.7%
Index‐Linked CD, 5‐year term, 0% minimum interest
50% to 70% Participation, no cap 89.2% 96.0% 130.0% 155.2%
Table 18 indicates that FIAs with annual point‐to‐point interest credit feature can be a great asset class for the purpose of wealth accumulation. If certainty of outcome is important to the investor, having a minimum interest and not losing the principal, makes a huge difference in achieving one’s objectives. There are also tax benefits one should not ignore.
However, if the interest crediting method is based on term‐end point, then the outcome is not as attractive. That is because in the unlucky case, the FIA accumulates only the minimum interest (in this case; 3% interest on 90% of the premium). Keep this in mind when selecting a FIA for accumulation purposes.
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In all cases listed below, a higher market value can trigger a step‐up of the guaranteed withdrawal base for the entire time horizon. Also, the interest and the market value step‐ups are stackable, except where noted.
Table 19: The capital accumulation efficiency for various Variable Annuities with GMWB with 90%
certainty:
Description Time Horizon
10 years 20 years
Capital Accumulation Efficiency: 5% simple, for 10 years, 116.4% 74.8% 5% simple, for 15 years 116.4% 87.3% 5% simple, for 20 years 116.4% 99.8% 6% simple, for 10 years 124.2% 79.8% 6% simple, for 15 years 124.2% 94.8% 6% simple, for 20 years 124.2% 109.7% 8% simple, for 10 years 139.7% 89.8% 8% simple, for 15 years 139.7% 109.7% 8% simple, for 20 years 139.7% 129.7% 10% simple, for 10 years, step‐up is non‐stackable 155.2% 99.8% 5% compound, for 10 years 126.4% 81.3% 5% compound, for 15 years 126.4% 103.7% 5% compound, for 20 years 126.4% 132.4% 6% compound, for 10 years 139.0% 89.3% 6% compound, for 15 years 139.0% 119.6% 6% compound, for 20 years 139.0% 160.0% 8% compound, for 10 years 167.6% 107.7% 8% compound, for 15 years 167.6% 158.2% 8% compound, for 20 years 167.6% 232.5% After 10 years, the GWB is set to minimum 200% of starting amount:5% simple, for 10 years 155.2% 99.8% 5% simple, for 15 years 155.2% 112.2% 5% simple, for 20 years 155.2% 124.7% 6% simple, for 10 years 155.2% 99.8% 6% simple, for 15 years 155.2% 114.7% 6% simple, for 20 years 155.2% 129.7% 8% simple, for 10 years 155.2% 99.8% 8% simple, for 15 years 155.2% 119.7% 8% simple, for 20 years 155.2% 139.7%
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Conclusion:
If your purpose is to accumulate a specific target dollar amount at a given future target date, then the non‐Gaussian aftcast of all years since 1900 shows that:
The optimum asset mix between equities and bonds points to a much lower equity content in a non‐Gaussian approach compared to the Gaussian approach (efficient frontier, MPT).
The performance of bonds is just a important as the performance of equities in an accumulation portfolio.
A target‐date fund is much more likely to miss a target than a portfolio with a constant optimum asset mix.
Fixed index annuities, which are of the annual‐point‐to‐point type, have a significantly better chance of achieving a specific future target dollar amount than a portfolio with a fixed, optimum asset mix.
If the purpose of accumulation is to provide retirement income within the next 10 to 15 years, variable annuities with step‐up features also have a significantly higher chance of achieving a specific future target dollar amount.
The capital accumulation efficiency varies with different time horizons. Different products and strategies excel in specific time horizons:
Time horizons shorter than 15 years: Variable annuities with guarantees (VA‐GMWB) generally provide the most efficient structure for accumulation of retirement income.
Time horizons 20 years and longer: There are a number of choices:
1. If you want an absolutely passive instrument and want to minimize the downside risk, then carefully‐selected fixed index annuities can work very efficiently for you.
2. If you don’t want to be too passive, you can have a buy‐and‐hold portfolio with optimum asset mix, holding low‐cost, broad based ETFs. You can potentially add to performance with optimum rebalancing or tactical strategies.
Time horizons 30 years longer: If, and only if, you have the capability of selecting excellent managers, you can try a buy‐and‐hold portfolio with an optimum asset mix and with active management. You can potentially add to performance with optimum rebalancing or tactical strategies. However, once you decide to be active, it is a full‐time undertaking; any lapse of monitoring can backfire even with the best of fund managers.
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Addendum: Optimum Asset Mix for Sur‐Target Assets:
This paper was written to analyze strategies and products to achieve a specific target dollar amount in the portfolio for retirement income. The optimum asset allocation described earlier, which is designed for 90% certainty, serves that purpose.
However, there are cases where an investor has already met his target dollar amount in his portfolio to provide him his desired retirement income. That can happen for many reasons such as, being lucky with investments, receiving an inheritance, unexpected winnings etc. Also, by the mere fact that, if your design is for 90% certainty, historically, in 90% of the time, you will reach your target date sooner.
Once your assets exceed your target dollar amount to finance your retirement needs, the first step is to review your retirement lifestyle expenses to make sure that the original target is still valid. After that is reconfirmed, then any assets beyond that target are “surtarget”. Surtarget assets, i.e. assets that are over and above what you need for retirement, do not need to be invested with the same strict certainty of outcome. They can be invested to reflect the optimum asset mix is for the median outcome.
Table 20 depicts the non‐Gaussian optimum asset allocation between equities and fixed income. This is based on maximizing the median portfolio value for surtarget assets. These figures are only for accumulation portfolios with no withdrawals. If there are any withdrawals such as in a pension fund, a foundation, a trust fund, or a retirement portfolio, these optimums will be different.
Table 20: Optimum asset mix, optimized for median portfolio value for surtarget assets:
Optimum Asset Mix Time Horizon Equity Proxy
DJIA Equity ProxyS&P500
Equity Proxy SP/TSX
10 years 50 / 50 40 / 60 60 / 40 20 years 50 / 50 60 / 40 70 / 30 30 years 60 / 40 70 / 30 60 / 40 40 years 80 / 20 100 / 0 60 / 40
Keep in mind; these figures are based on the last 111 years of market history. Future outcomes will be different. Also, investor’s personal risk tolerance overrides any of the mathematically optimum figures cited above.
This document is provided for information purposes only and does not constitute legal advice or endorsement by Aftcast.com of any named products or services. Future outcomes will be different than in the past. All questions regarding compliance with the laws and regulations discussed here should be directed to competent legal counsel. P a g e | 45
About Aftcast.com Aftcast.com provides research in the area of retirement income products to its clients. The research is based on non‐Gaussian philosophy using actual market history. It helps its clients to better understand the behavior and impact of retirement income products under various, non‐simulated, historical market environments. It provides the intelligence to its clients to make more informed decisions to manage and market their existing and planned retirement income products.
This report was researched and authored by Jim Otar, CFP, CMT, BASc, MEng, who is the founder of aftcast.com. Also, valuable editorial feedback was graciously provided by Kerry Pechter of Retirement Income Journal. For your comments and feedback, or to learn more about aftcasting, please visit www.aftcast.com or send an email to jim@retirementoptimizer.com
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